CN109454242A - Horizontal precision Double-head numerical controlled lathes and processing method - Google Patents

Abstract

The invention discloses a kind of horizontal precision Double-head numerical controlled lathes and processing methods, including pedestal, axis system, two Z axis devices, two X-axis devices, two detection devices, stop gauge, fixture and hydraulic station, axis system, two Z axis devices and hydraulic station are installed on pedestal, two Z axis devices are separately mounted to the two sides of pedestal, one X-axis device is mounted on a Z axis device, another X-axis device is mounted on another Z axis device, one detection device and stop gauge are installed on an X-axis device, another detection device is mounted on another X-axis device, cutter there are two being respectively mounted on each X-axis device, axis system is mounted on the medium position of pedestal, fixture is mounted on axis system, hydraulic station is connect with fixture；The configuration of the present invention is simple, rationally, lathe is compact for design, it is easy to accomplish automation.

Description

Horizontal precision Double-head numerical controlled lathes and processing method

Technical field

The present invention relates to a kind of numerically controlled lathe more particularly to a kind of horizontal precision Double-head numerical controlled lathes and its processing methods.

Background technique

Existing lathe for machining is most of based on single main shaft, in terms of workpieces processing, single side can only be processed, if need to add The work other end needs cooperative mechanical hand and other lathes online, takes up a large area, and logistics is complicated, and the degree of automation is low, processing effect Rate is low, and repeated clamping can the caused inaccurate problem of repetitive positioning accuracy.

It is by sleeping in view of this, disclosing a kind of horizontal lathe in the patent document that publication No. is CN102009189A Lathe bed, tailstock, headstock, chuck are assembled into the general horizontal lathe of standard by the assembly technology of formula lathe, by gate-type column It is fixedly mounted on above headstock with bolt, sliding block is mounted on the opening among shelves of gate-type column, in the right way by cantilever It is fixedly connected with a slide block, pneumatic impact spanner is fixed on above cantilever in the right way, air motor is fixed on The upper end of lead screw is fixedly connected by the top of gate-type column in the right way with the output shaft of air motor, and other end is logical The mode being threadedly engaged is crossed to connect with sliding block.Above-mentioned documents there are workpiece can only single-sided process, repetition clamp will lead to it is fixed The inaccurate disadvantage of position precision.

Summary of the invention

Based on the above issues, the present invention provides that a kind of structure is simple, and the horizontal precision Double-head numerical controlled lathes of double end can not only Working efficiency is improved, while going out to improve the required Product Precision processed；

The present invention adopts the following technical scheme that realization:

A kind of horizontal precision Double-head numerical controlled lathes, including pedestal, axis system, Z axis device, X-axis device, detection device, Stop gauge, fixture and hydraulic station；Discharge outlet is provided on pedestal；Z axis device has two, is separately mounted to the two sides of pedestal；X Shaft device has two, is equipped with X-axis device on each Z axis device；Detection device and backgauge dress are installed on one X-axis device It sets, installation detecting device on another X-axis device；Axis system, hydraulic station are mounted on the base；It is installed on each X-axis device There are two cutters；Axis system is mounted on the medium position of pedestal, and fixture is mounted on axis system, and hydraulic station and fixture connect It connects；

Wherein, axis system includes spindle motor, seat, Hydraulic Main axle bed, hydraulic main shaft and main shaft belt in main shaft；It is described Seat is respectively mounted on the base in spindle motor and the main shaft, and seat is respectively positioned on the middle part of pedestal in spindle motor and main shaft Position, Hydraulic Main axle bed are mounted in main shaft on seat, and hydraulic main shaft passes through Hydraulic Main axle bed and is rotatably installed on Hydraulic Main axle bed, The spindle motor is connect with hydraulic main shaft by the main shaft belt, and fixture is mounted in hydraulic main shaft, and fixture and backgauge fill Block cooperation in setting；

Wherein, Z axis device includes z axis rail, Z axis motor, Z axis screw rod and saddle；Z axis rail and Z axis motor are respectively mounted On pedestal, saddle is slidably mounted on z axis rail；Z axis motor is connect with saddle by Z axis screw rod；Z axis motor and Z axis spiral shell Bar is connected by Z axis shaft coupling；

Wherein, X-axis device includes X-axis line rail, X-axis motor, X-axis screw rod and slide plate；X-axis line rail and X-axis motor are respectively mounted On the saddle of Z axis device, slide plate slides are mounted on X-axis line rail, and X-axis motor is connect with slide plate by X-axis screw rod, cutter peace On slide plate；X-axis motor is connect with X-axis screw rod by X-axis shaft coupling

Wherein, detection device includes detection fixed plate, detection line rail, detection slider cylinder, gauge head fixing seat, gauge head, inspection Survey air cylinder supporting structure, detection cylinder and detection connection frame；Detection cylinder is mounted in detection air cylinder supporting structure, detects cylinder and institute Detection connection frame connection is stated, detection connection frame is connect with one end of detection line rail, and detection line rail is slidably mounted on detection fixed plate On, detection slider cylinder is mounted on the other end of detection line rail, and gauge head fixing seat is mounted in the detection slider cylinder, gauge head It is mounted in the gauge head fixing seat；Detection fixed plate and the detection air cylinder supporting structure are installed in the cunning of the X-axis device On plate；

Wherein, stop gauge includes backgauge fixed plate, backgauge line rail, backgauge slider cylinder, block fixing seat, block, gear Expect air cylinder supporting structure, backgauge cylinder and backgauge connection frame；Backgauge fixed plate and backgauge cylinder fixed frame are installed in positioned at left side Slide plate on, backgauge cylinder is mounted on backgauge cylinder fixed frame, and backgauge cylinder is connect with backgauge connection frame, backgauge connection frame with One end of backgauge line rail connects, and backgauge line rail is slidably mounted in backgauge fixed plate, and backgauge slider cylinder is mounted on backgauge line rail The other end, block fixing seat is mounted in backgauge slider cylinder, and block is mounted in block fixing seat.

Water tank is mounted on the lower section of the discharge outlet of pedestal, and water pump is mounted on water tank.

Slide plate is tiltedly mounted on X-axis line rail, and the angle between slide plate and horizontal plane is 30 °.

Cutter is comb formula tool apron, detects slider cylinder and backgauge slider cylinder is accurate slider cylinder, z axis rail and X Axis rail is roller guide.

The processing method of horizontal precision Double-head numerical controlled lathes, it is characterised in that: the processing method includes the following steps:

Step 1: workpiece is placed on fixture；It is slided, is led to along z axis rail by Z axis motor and Z axis screw drive saddle X-axis motor and X-axis screw drive slide plate is crossed to slide along X-axis line rail；Backgauge line rail is driven by backgauge cylinder and backgauge connection frame Sliding, while the sliding of block fixing seat is driven by backgauge slider cylinder, and then limit to workpiece by block；Pass through liquid Pressure station provides power for fixture, and the workpiece clamp after limit is handled；

Step 2: hydraulic main shaft rotation is driven by spindle motor and main shaft belt, so that the workpiece clamped exists It is rotated on fixture；It is slided by Z axis motor and Z axis screw drive saddle along z axis rail, passes through X-axis motor and X-axis screw drive Slide plate is slided along X-axis line rail；It is processed by workpiece of the cutter to rotation；

Step 3: sliding by Z axis motor and Z axis screw drive saddle along z axis rail, pass through X-axis motor and X-axis screw rod Slide plate is driven to slide along X-axis line rail；The sliding of detection line rail is driven by detection cylinder and detection connection frame, while being slided by detection Platform cylinder drives the sliding of gauge head fixing seat, and then is detected by gauge head to the aperture of the workpiece after processing and hole depth；It is described The first step is successively carried out to second step, and the second step and third step carry out simultaneously.

In third step, knife benefit is carried out to processing part by detection device.

The maximum feed speed of Z axis device and X-axis device is 24m/min.

Technical solution of the present invention realize the utility model has the advantages that

1, structure is simple, and rationally, lathe is compact for design, it is easy to accomplish automation.

2, z axis rail and X-axis line rail are all made of roller guide, rigidly improve 30% or more than general spherical guide, and have There is faster feed speed,

3, oblique angle installation is cut between slide plate and horizontal plane in 30 °, improves the stability of pedestal and and chip removal.

4, once clamping both ends to workpiece while can process, and greatly shorten process time, and avoid because Problem is not allowed in positioning accuracy caused by repeatedly clamping.

5, detection device can aperture to workpiece and hole depth carry out on-line checking, knife benefit can be carried out to workpiece at any time, protected The machining accuracy of workpiece is demonstrate,proved.

Detailed description of the invention

Fig. 1 is the schematic perspective view of horizontal precision Double-head numerical controlled lathes of the present invention；

Fig. 2 is the portion A enlarged structure schematic diagram in Fig. 1；

Fig. 3 is the schematic perspective view of the horizontal precision Double-head numerical controlled lathes of the embodiment of the present invention；

Fig. 4 is the schematic perspective view of the horizontal precision Double-head numerical controlled lathes of the embodiment of the present invention；

Fig. 5 is the portion B enlarged structure schematic diagram in Fig. 4.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawing and by embodiment, and following embodiment is to this hair Bright explanation and the invention is not limited to following embodiments.

Embodiment.

Referring to figs. 1 to 5, it should however be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc. are only used To cooperate the revealed content of specification, so that those skilled in the art understands and reads, being not intended to limit the invention can The qualifications of implementation, therefore do not have technical essential meaning, the tune of the modification of any structure, the change of proportionate relationship or size It is whole, in the case where not influencing the effect of present invention can be generated and the purpose that can reach, it should all still fall in disclosed skill In the range of art content can cover.Meanwhile if in this specification with reference as "upper", "lower", "left", "right", " centre " and The term of " one " etc. is merely convenient to being illustrated for narration, rather than to limit the scope of the invention, relativeness It is altered or modified, under the content of no substantial changes in technology, when being also considered as the enforceable scope of the present invention.

Horizontal precision Double-head numerical controlled lathes, including pedestal 1,3, two, the Z axis device X-axis device 4, two of axis system 2, two A detection device 5, stop gauge 6, fixture 7 and hydraulic station 9；2, two Z axis devices 3 of axis system and hydraulic station 9 are installed in On pedestal 1, two Z axis devices 3 are separately mounted to the two sides of pedestal 1, and an X-axis device 4 is mounted on a Z axis device 3, separately One X-axis device 4 is mounted on another Z axis device 3, and a detection device 5 and stop gauge 6 are installed in an X-axis dress It sets on 4, another detection device 5 is mounted on another X-axis device 4, it is respectively mounted on each X-axis device 4 there are two cutter 8, Axis system 2 is mounted on the medium position of pedestal 1, and fixture 7 is mounted on axis system 2, and hydraulic station 9 is connect with fixture 7；Main shaft System 2 includes seat 22, Hydraulic Main axle bed 23, hydraulic main shaft 24 and main shaft belt 25 in spindle motor 21, main shaft；Z axis device 3 wraps Include z axis rail 31, Z axis motor 32, Z axis screw rod 33 and saddle 34；X-axis device 4 includes X-axis line rail 41, X-axis motor 42, X-axis spiral shell Bar 43 and slide plate 44；Detection device 5 includes detection fixed plate 51, detection line rail 52, detection slider cylinder 53, gauge head fixing seat 54, gauge head 55, detection air cylinder supporting structure 56, detection cylinder 57 and detection connection frame 58；Stop gauge 6 includes backgauge fixed plate 61, backgauge line rail 62, backgauge slider cylinder 63, block fixing seat 64, block 65, backgauge cylinder fixed frame 66, backgauge cylinder 67 With backgauge connection frame 68, z axis rail 31 and Z axis motor 32 are installed on pedestal 1, and saddle 34 is mounted on z axis rail 31, Z Spindle motor 32 is connect with saddle 34 by Z axis screw rod 33, and X-axis line rail 41 and X-axis motor 42 are installed on saddle 34, slide plate 44 It is mounted on X-axis line rail 41, X-axis motor 42 is connect with slide plate 44 by X-axis screw rod 43, cutter 8, detection fixed plate 51 and detection Air cylinder supporting structure 56 is installed on slide plate 44, detection cylinder 57 be mounted on detection air cylinder supporting structure 56 on, detection cylinder 57 with It detects connection frame 58 to connect, detection connection frame 58 is connect with one end of detection line rail 52, and detection line rail 52 is mounted on detection and fixes On plate 51, detection slider cylinder 53 is mounted on the other end of detection line rail 52, and gauge head fixing seat 54 is mounted on detection slider cylinder On 53, gauge head 55 is mounted in gauge head fixing seat 54, and backgauge fixed plate 61 and backgauge cylinder fixed frame 66 are installed in and are located at a left side On the slide plate 44 of side, backgauge cylinder 67 is mounted on backgauge cylinder fixed frame 66, and backgauge cylinder 67 is connect with backgauge connection frame 68, Backgauge connection frame 68 is connect with one end of backgauge line rail 62, and backgauge line rail 62 is mounted in backgauge fixed plate 61, backgauge slide unit gas Cylinder 63 is mounted on the other end of backgauge line rail 62, and block fixing seat 64 is mounted in backgauge slider cylinder 63, and block 65 is mounted on In block fixing seat 64；Seat 22 is installed on pedestal 1 in spindle motor 21 and main shaft, and seat 22 in spindle motor 21 and main shaft It is respectively positioned on the medium position of pedestal 1, Hydraulic Main axle bed 23 is mounted in main shaft on seat 22, and hydraulic main shaft 24 is mounted on hydraulic main shaft On seat 23, spindle motor 21 is connect with hydraulic main shaft 24 by main shaft belt 25, and fixture 7 is mounted in hydraulic main shaft 24, fixture 7 Cooperate with block 65.

Horizontal precision Double-head numerical controlled lathes in the present embodiment further include water tank 101 and water pump 102, are provided on pedestal 1 Discharge outlet, water tank 101 are mounted on the lower section of the discharge outlet of pedestal 1, and water pump 102 is mounted on water tank 101.

Saddle 34 in the present embodiment is slidably mounted on z axis rail 31, and slide plate 44 is slidably mounted on X-axis line rail 41, Detection line rail 52 is slidably mounted in detection fixed plate 51, and backgauge line rail 62 is slidably mounted in backgauge fixed plate 61.

Hydraulic main shaft 24 in the present embodiment passes through Hydraulic Main axle bed 23, and hydraulic main shaft 24 is rotatably installed in Hydraulic Main axle bed On 23；Z axis motor 32 is connect with Z axis screw rod 33 by Z axis shaft coupling, and X-axis motor 42 and X-axis screw rod 43 pass through X-axis shaft coupling Connection.

It slide plate 44 in the present embodiment and is tiltedly mounted on X-axis line rail 41, the angle between slide plate 44 and horizontal plane is 30°。

Cutter 8 in the present embodiment is comb formula tool apron, detects slider cylinder 53 and backgauge slider cylinder 63 is accurate cunning Platform cylinder, z axis rail 31 and X-axis line rail 41 are roller guide.

In the present embodiment, using the processing method of horizontal precision Double-head numerical controlled lathes, processing method includes the following steps:

Step 1: workpiece is placed on fixture 7；Drive saddle 34 along z axis rail by Z axis motor 32 and Z axis screw rod 33 31 slidings drive slide plate 44 to slide along X-axis line rail 41 by X-axis motor 42 and X-axis screw rod 43；Pass through backgauge cylinder 67 and backgauge Connection frame 68 drives backgauge line rail 62 to slide, while driving block fixing seat 64 to slide by backgauge slider cylinder 63, Jin Ertong Block 65 is crossed to limit workpiece；It is that fixture 7 provides power by hydraulic station 9, the workpiece clamp after limit is handled；

Step 2: drive hydraulic main shaft 24 to rotate by spindle motor 21 and main shaft belt 25, so that clamp Workpiece rotates on fixture 7；It drives saddle 34 to slide along z axis rail 31 by Z axis motor 32 and Z axis screw rod 33, passes through X-axis electricity Machine 42 and X-axis screw rod 43 drive slide plate 44 to slide along X-axis line rail 41；The workpiece rotated by 8 Duis of cutter is processed；

Step 3: driving saddle 34 to slide along z axis rail 31 by Z axis motor 32 and Z axis screw rod 33, pass through X-axis motor 42 and X-axis screw rod 43 drive slide plate 44 along X-axis line rail 41 slide；Detection line is driven by detection cylinder 57 and detection connection frame 58 Rail 52 slide, while by detection slider cylinder 53 drive gauge head fixing seat 54 slide, and then by 55 pairs of gauge head processing after The aperture of workpiece and hole depth are detected；The first step is successively carried out to second step, and second step and third step carry out simultaneously.

In third step in the present embodiment, knife benefit is carried out by 5 pairs of processing parts of detection device.

The maximum feed speed of Z axis device 3 and X-axis device 4 in the present embodiment is 24m/min.

Horizontal precision Double-head numerical controlled lathes in the present embodiment, are mainly used in aerospace, auto parts and components, Medical treatment device The isometric class of accessory, disk class both ends require the part of processing.

In addition, it should be noted that, the specific embodiments described in this specification, the shape of parts and components are named Title etc. can be different, and above content is only to structure of the invention example explanation described in this specification.It is all according to According to equivalence changes or simple change that the invention patent design structure, feature and principle is done, it is included in this hair In the protection scope of bright patent.Those skilled in the art can do described specific embodiment various The mode that the modify or supplement or adopt of various kinds is similar substitutes, and without departing from structure of the invention or surmounts present claims Range defined in book, is within the scope of protection of the invention.

Claims (7)

1. a kind of horizontal precision Double-head numerical controlled lathes, it is characterised in that: including pedestal, axis system, Z axis device, X-axis device, Detection device, stop gauge, fixture and hydraulic station；Discharge outlet is provided on the pedestal；The Z axis device has two, respectively It is mounted on the two sides of pedestal；The X-axis device has two, is equipped with X-axis device on each Z axis device；Pacify on one X-axis device Equipped with the detection device and the stop gauge, another X-axis device on installation detecting device；The axis system, liquid Pressure station is mounted on the base；There are two cutters for installation on each X-axis device；The axis system is mounted on the middle part of the pedestal Position, the fixture are mounted on the axis system, and the hydraulic station is connect with fixture；

Wherein, the axis system includes spindle motor, seat, Hydraulic Main axle bed, hydraulic main shaft and main shaft belt in main shaft；It is described Seat is respectively mounted on the base in spindle motor and the main shaft, and seat is respectively positioned on the middle part of pedestal in spindle motor and main shaft Position, Hydraulic Main axle bed are mounted in main shaft on seat, and hydraulic main shaft passes through Hydraulic Main axle bed and is rotatably installed on Hydraulic Main axle bed, The spindle motor is connect with hydraulic main shaft by the main shaft belt, and the fixture is mounted in hydraulic main shaft, the fixture Cooperate with the block in the stop gauge；

Wherein, the Z axis device includes z axis rail, Z axis motor, Z axis screw rod and saddle；The z axis rail and Z axis electricity Machine is respectively mounted on the base, and the saddle is slidably mounted on the z axis rail；The Z axis motor and the saddle are logical Cross the Z axis screw rod connection；The Z axis motor is connect with Z axis screw rod by Z axis shaft coupling；Z axis rail is roller guide；

Wherein, the X-axis device includes X-axis line rail, X-axis motor, X-axis screw rod and slide plate；The X-axis line rail and X-axis motor are equal It is mounted on the saddle of the Z axis device, the slide plate slides are mounted on X-axis line rail, and the X-axis motor and the slide plate are logical The connection of X-axis screw rod is crossed, the Cutting tool installation manner is on the slide plate；The X-axis motor is connect with X-axis screw rod by X-axis shaft coupling； X-axis line rail is roller guide；

Wherein, the detection device includes detection fixed plate, detection line rail, detection slider cylinder, gauge head fixing seat, gauge head, inspection Survey air cylinder supporting structure, detection cylinder and detection connection frame；The detection cylinder is mounted in the detection air cylinder supporting structure, described Detection cylinder is connect with the detection connection frame, and the detection connection frame is connect with one end of the detection line rail, the detection Line rail is slidably mounted in the detection fixed plate, and the detection slider cylinder is mounted on the other end of the detection line rail, institute It states gauge head fixing seat to be mounted in the detection slider cylinder, the gauge head is mounted in the gauge head fixing seat；The detection Fixed plate and the detection air cylinder supporting structure are installed on the slide plate of the X-axis device；

Wherein, the stop gauge includes backgauge fixed plate, backgauge line rail, backgauge slider cylinder, block fixing seat, block, gear Expect air cylinder supporting structure, backgauge cylinder and backgauge connection frame；The backgauge fixed plate and backgauge cylinder fixed frame are installed in and are located at On the slide plate in left side, the backgauge cylinder is mounted on backgauge cylinder fixed frame, and the backgauge cylinder is connect with backgauge connection frame, The backgauge connection frame is connect with one end of backgauge line rail, and the backgauge line rail is slidably mounted in backgauge fixed plate, the gear Material slider cylinder is mounted on the other end of backgauge line rail, and the block fixing seat is mounted in backgauge slider cylinder, the block It is mounted in block fixing seat.

2. horizontal precision Double-head numerical controlled lathes according to claim 1, it is characterised in that: the horizontal precision Double end digital control Lathe further includes water tank and water pump, and the water tank is mounted on the lower section of the discharge outlet of pedestal, and the water pump is mounted on water tank.

3. horizontal precision Double-head numerical controlled lathes according to claim 1, it is characterised in that: the slide plate is tiltedly mounted on X On axis rail, the angle between the slide plate and horizontal plane is 30 °.

4. horizontal precision Double-head numerical controlled lathes according to claim 1, it is characterised in that: the cutter is comb formula tool apron, The detection slider cylinder and backgauge slider cylinder are accurate slider cylinder.

5. a kind of processing method of horizontal precision Double-head numerical controlled lathes, it is characterised in that: processing method includes the following steps:

Step 1: workpiece is placed on fixture；It is slided by Z axis motor and Z axis screw drive saddle along z axis rail, passes through X-axis Motor and X-axis screw drive slide plate are slided along X-axis line rail；The sliding of backgauge line rail is driven by backgauge cylinder and backgauge connection frame, The sliding of block fixing seat is driven by backgauge slider cylinder simultaneously, and then workpiece is limited by block；Pass through hydraulic station Power is provided for fixture, the workpiece clamp after limit is handled；

Step 2: hydraulic main shaft rotation is driven by spindle motor and main shaft belt, so that the workpiece clamped is in fixture Upper rotation；It is slided by Z axis motor and Z axis screw drive saddle along z axis rail, passes through X-axis motor and X-axis screw drive slide plate It is slided along X-axis line rail；It is processed by workpiece of the cutter to rotation；

Step 3: sliding by Z axis motor and Z axis screw drive saddle along z axis rail, pass through X-axis motor and X-axis screw drive Slide plate is slided along X-axis line rail；The sliding of detection line rail is driven by detection cylinder and detection connection frame, while passing through detection slide unit gas Cylinder drives the sliding of gauge head fixing seat, and then is detected by gauge head to the aperture of the workpiece after processing and hole depth；

The first step is successively carried out to second step, and the second step and third step carry out simultaneously.

6. the processing method according to claim 5 using horizontal precision Double-head numerical controlled lathes, it is characterised in that: described In three steps, knife benefit is carried out to processing part by detection device.

7. the processing method according to claim 5 using horizontal precision Double-head numerical controlled lathes, it is characterised in that: the Z The maximum feed speed of shaft device and X-axis device is 24m/min.